JPH0224293A - Fixing device for revolvable prop-fan blade - Google Patents

Abstract

PURPOSE: To facilitate the dismount or replacement of a propfan by holding a propfan blade in a groove joint in a blade carrier, or ensuring the blade carrier with respect to radial movements through a second safety mechanism accessible from the outside. CONSTITUTION: To disassemble the wing 1 of a propfan blade, a safety wedge 15 is drawn out axially in the lower part of a blade leg 14. A safety plate 13 is slid radially inward, and thus has the same peripheral profile as the dovetail groove-like blade leg 14. The blade leg 14 is then drawn out axially from a blade carrier 3. When the removal of the blade carrier 3 is necessary, a fastening nut 8 accessible from the outside is loosened and removed. The blade carrier 3 is then made drawable radially upward, and in this case, a bearing 17 remains fixed to the blade carrier 3.

Description

[Detailed description of the invention] 1110! The present invention is characterized in that prop fan blades are fixed to a blade carrier,
The invention relates to a device for fixing coated, pivotable prop fan blades to the rotor, the blade carrier being journalled in the rotor around the radial axis of the drive motor via roller bearings. be.

1 Such a device is known from DE 23 33 274 A1, in which the prop fan blades have to be removed radially outwards.

German Patent No. 2 622 235 discloses a device for pivoting the prop fan blades of a five-turbine driven prime mover, in which the axis of each prop fan blade is located in the rotor. It is rotatably supported on the shaft. A gear wheel arranged radially internally is fixed to the shaft, which gear wheel engages a ring gear journalled in the rotor for pivoting the prop fan blades.

These arrangements have the disadvantage that in case of damage to one blade, its disassembly is very complicated. Thus, in the latter case, the internally lying gears must be removed before the blades can be removed radially outwards, in particular the radially external coating of the prop fan blades. In the case of a prop fan drive motor having a prop fan, an opening must be provided in the jacket for this purpose. This increases assembly costs and increases the risk of damage to the coating.

Therefore, the invention aims to provide a fixing device for a swiveling prop fan blade that ensures easy removal or replacement of the prop fan blade even in the presence of a covering. This is an issue to be addressed. In particular, in that case, no action is required inside the rotor or on the rotating mechanism.

According to the present invention for solving the problem, this problem is solved in the first claim.
Alternatively, the problem can be solved by the configuration described in the characteristic section of item 11.

This advantageously achieves that the prop fan blades to be replaced do not have to be removed radially outwards and therefore no changes are required to the cladding. Ru.

Removal of the prop fan blades is such that after removal of the first safety mechanism, the blades are removed from the axial groove guide and, as long as necessary, the blade carrier is subsequently removed from the second safety mechanism. Advantageously, it can be pulled out in the radial direction after removal. Removal of the prop fan blades or the blade carrier or their bearings is possible without contacting the blade adjustment mechanism or the associated fluid system. Therefore, a substantial overhaul and simplification of the repair process of vanes or vane bearings can be achieved.

In an advantageous embodiment of the invention, the vane carrier is non-rotatably connected to the pivot lever via teeth. This allows a space-saving removable connection and allows the vane carrier to be easily removed. The teeth can alternatively be configured as simple radial teeth or wedge teeth.

Another advantageous embodiment of the invention provides that the bush-like intermediate part is connected to the vane carrier by means of a screw under the fixing, i.e. tightening, of the bearing inner ring, the inner surface of which is provided with teeth. This is something that is taken into consideration. This advantageously combines convenient fastening of the bearing race with the possibility of simple radial removal of the vane carrier.

Furthermore, it is provided that an externally accessible tightening nut is connected to the rotor via a screw under the tightening of the bearing outer ring. This allows easy removal of the vane carrier without contacting the rotation bearing or the rotor interior.

Preferably, the vane carrier is mounted by two rows of roller bearings, so that an advantageous balancing of the loads occurring in operation can be achieved.

Preferably, the dovetail joint is inclined with respect to the rotor axis. As a result, when removing the prop fan blade,
Enlargement of the tip gap can be achieved and 1. This reduces the risk of damage to the blade tips or to the paint film in the provided coating.

In another embodiment of the present invention, one or more safety plates are provided to ensure the axial direction of the prop fan blades, and these include a blade carrier and a dovetail-shaped blade leg. It is provided that the safety wedge is inserted into the transverse groove of the blade and secured by a safety wedge inserted axially into the lower part of the blade leg. This achieves a simple removable axial fixation of the prop fan blade, which, moreover, has only a small weight.

In an advantageous embodiment of the invention, the dovetail joint is implemented in the form of a circular arc, which ensures a good adaptation to the profile of the prop fan blade.

According to one further solution of the problem on which the invention is based, the prop fan blade is attached to the blade carrier by means of a clamping segment. This allows easy installation and disassembly of the prop fan blades. Preferably, the tightening ring with a zero-shaped cross section consists of two half-rings, which are connected under tension via a connecting flange. In addition, the tightening ring
Simply split at one point, so that disassembly takes place by elastic bending of the clamping ring.

LJL Hereinafter, the present invention will be described in detail based on the accompanying drawings showing embodiments thereof.

The blades l of the prop fan shown in FIG. 1 are attached via dovetail joints 12 to a blade carrier 3 of a rotating system. In that case, the fixation of the drive motor in the axial direction is
This is done by means of a safety plate 13 inserted into two radial grooves of the vane m14. These safety plates 13 are themselves held in position by safety wedges 15 inserted axially into the lower part of the vane legs 14.

The vane carrier 3 is rotatably supported in the rotor 2 by two rows of tapered roller bearings 17 . In that case, the outer ring 9 of the tapered roller bearing 17 is clamped into the rotor 2 by means of a tightening nut 8 . In that case,
The tightening nut 8 is accessible from the outside and is connected to the screw 1.
0, it is fixed to the rotor 2.

A seal 18 is further provided between the tightening nut 8 and the vane carrier 3 in order to prevent leakage to the outside of the bearing 17.

The divided inner ring 6 of the bearing 17 is clamped into the vane carrier 3 via the intermediate part 5 . Bush-shaped intermediate part 5 screwed into the vane carrier 3 via a screw thread
has teeth 4 on its inner circumferential surface, into which the corresponding teeth of the pivoting lever 20 are fitted and joined, as shown in FIG.

For tightening the inner race 6 of the bearing 17, the intermediate member 5
is fitted with an external ring flange 11.

In FIG. 3, another possible sticking of the prop fan blade 1 on the blade carrier 3 is shown. For this purpose, 2
A clamping ring 16 is provided, consisting of 2 ring segments, which ring 16 is screwed and tightened at 22 opposing points 22, as can be seen in FIG.

For disassembly of the blade l of the prop fan blade according to the embodiment shown in FIG. 1, first the safety wedge 15 is pulled out axially at the bottom of the blade leg 14. The safety plate 13 then slides radially inward and thus takes on the same peripheral contour as the dovetailed vane leg 14. Subsequently, the vane leg 14 is pulled out from the vane carrier 3 in the axial direction.If removal of the vane carrier 3 is required, the tightening nut 8, which is accessible from the outside, is unscrewed. Subsequently, the vane carrier 3 can be pulled out radially upwards, with the bearing 17 remaining fixed to the vane carrier 3.

In FIG. 5, the blade 1 of a prop fan blade is shown viewed radially from above, in which case the dovetail joint 12 is connected to the fixed position in the blade carrier 3 of the blade 1 of the prop fan blade. Therefore, it is recognized that it is formed into an arc shape to match the curvature of ¥&1.

Hakan! Since the present invention has the above-described structure and function, it is also possible to easily remove or replace the blades of the prop fan blades even when a cover plate or a shroud plate is present. It has the excellent effect of being able to provide a fixing device for prop fan blades that can rotate freely to ensure that

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view of a prop fan blade fixing device;
Figure 2 shows the arrangement of 8111! in Figure 1! ! T-side view, FIG. 3 is a vertical sectional view showing another embodiment of the prop fan blade fixing device, FIG. 4 is a plan view of the prop fan blade, and FIG. 5 is a plan view of another prop fan blade. It is a diagram. 1... Prop fan blade, 3... Blade carrier, 4...
... Teeth, 5 ... Intermediate member, 6 ... Bearing inner race, 7
．． 10...Screw, 8...Tightening nut, 9...
Bearing outer race, 11...Outer ring flange, 12.
...Dovetail groove joint, 13..Safety plate, 14..Blade leg, 1
5...Safety wedge, 16...Tightening ring. Patent applicant agent # Teru Gado

Claims (1)

[Claims] 1. A device for fixing coated prop fan blades to a rotor, in which the prop fan blades are fixed to a blade carrier, and the blade carrier is connected to a drive motor through roller bearings. In the fixing device for prop fan blades which are mounted in the rotor about the radial axis of the prop fan blade (1), the prop fan blade (1) is located in the blade carrier (3) and in the groove joint (12). The prop fan blade (1) is also held in place via the first safety mechanism (13, 15).
is fixed against axial movement of the vane carrier (3
) is secured against radial movement via a second safety mechanism (8) accessible from the outside. 2. The blade carrier (3) is connected to the pivot lever (2) by means of the teeth (4).
2. The swingable prop fan blade fixing device according to claim 1, wherein the prop fan blade fixing device is connected to the prop fan blade. 3. The rotatable prop fan blade fixing device according to claim 2, wherein the teeth (4) are wedge teeth. 4. The bush-like intermediate member (5) is attached to the blade carrier (3),
4. A rotatable rotatable rotary shaft according to claim 1, wherein the bearing inner race (6) is fixedly connected to the bearing inner race (6) via a screw (7), and has teeth (4) on its inner surface. Fixing device for prop fan blades. 5. Any one of claims 1 to 4, wherein the tightening nut (8) accessible from the outside is connected to the rotor (2) via a screw (10) under the fixation of the bearing outer race (9). A fixing device for a rotatable prop fan blade as described in the above. 6. The rotatable prop fan blade fixing device according to claim 1, wherein the blade carrier (3) is supported by two rows of tapered roller bearings. 7. The intermediate member (5) is provided with an outer ring flange (11), the outer ring flange (11) comprising:
7. Fixing device for a pivotable prop fan blade according to claim 4, 5 or 6, characterized in that the bearing inner race (6) is clamped to the blade carrier (3). 8. A swingable prop fan blade fixing device according to claim 1, wherein the dovetail joint (12) is inclined with respect to the rotor axis. 9. A safety plate (13) is provided to ensure the axial direction of the prop fan blade (1).
) are fitted in the radial direction into the transverse grooves of the blade carrier (3) and the dovetail-shaped blade leg (14), and are axially fitted in the lower part of the blade leg (14). 9. Fixing device for a pivotable prop fan blade according to claim 8, wherein the fastening device is secured by an inserted safety wedge (15). 10. Fixing device for a pivotable prop fan blade according to claim 8 or 9, wherein the dovetail joint (12) is designed in the form of an arc adapted to the blade contour. 11. A prop fan blade leg is fixed to a blade carrier, which is rotatably supported on a rotor via roller bearings so as to be rotatable around the axis of a driving motor. In the fixation device for
The prop fan blade (1) has a disc-shaped blade foot, which is connected via a branched clamping ring (16) to the adapted disc-shaped surface of the blade carrier (3). The vane carrier (3
) is secured against radial movement by a safety mechanism (8) accessible from the outside.